General Principles for implementing logic gates in a Nanocell

We examine the general principles for implementing
voltage-current logic in a nanocell, a self-assembled network of molecules with non-linear IV characteristics.
We also examine the bistable NDR-latch behavior when the input is a voltage source in series with a non-linear IVC.

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BibTeX @unpublished{Sköldberg2010,author={Sköldberg, Jonas and Wendin, Göran},title={General Principles for implementing logic gates in a Nanocell},abstract={We examine the general principles for implementing
voltage-current logic in a nanocell, a self-assembled network of molecules with non-linear IV characteristics.
We also examine the bistable NDR-latch behavior when the input is a voltage source in series with a non-linear IVC.},year={2010},keywords={molecular electronics, self-assembly, logic},note={11},}

RefWorks RT Unpublished MaterialSR PrintID 125087A1 Sköldberg, JonasA1 Wendin, GöranT1 General Principles for implementing logic gates in a NanocellYR 2010AB We examine the general principles for implementing
voltage-current logic in a nanocell, a self-assembled network of molecules with non-linear IV characteristics.
We also examine the bistable NDR-latch behavior when the input is a voltage source in series with a non-linear IVC.LA engOL 30